CN212090072U - Isolation head cabin - Google Patents

Isolation head cabin Download PDF

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Publication number
CN212090072U
CN212090072U CN202020262075.8U CN202020262075U CN212090072U CN 212090072 U CN212090072 U CN 212090072U CN 202020262075 U CN202020262075 U CN 202020262075U CN 212090072 U CN212090072 U CN 212090072U
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China
Prior art keywords
cabin body
cabin
patient
negative pressure
gas
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CN202020262075.8U
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Chinese (zh)
Inventor
费昱达
车璐
朱阿芳
苑雨辰
田园
张雪
刘子嘉
陈唯韫
陈绍辉
申乐
许力
黄宇光
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Peking Union Medical College Hospital Chinese Academy of Medical Sciences
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Peking Union Medical College Hospital Chinese Academy of Medical Sciences
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Priority to CN202020262075.8U priority Critical patent/CN212090072U/en
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Abstract

The utility model provides an isolation head cabin, isolation head cabin includes: the device comprises a cabin body with an opening at one end and a hollow interior, a negative pressure mechanism, a sealing device and an operating mechanism; the cabin body is sleeved on the head of the patient and is provided with a perspective window; the sealing device is connected with the open end of the cabin body and is used for sealing the interior of the cabin body; the cabin body is provided with a ventilation port and an air outlet, and the ventilation port is used for supplying oxygen to the cabin body and exhausting gas exhaled by the patient; the negative pressure mechanism is connected with the air outlet and is used for enabling the cabin body to be in a negative pressure state; the operating mechanism is arranged in the cabin body and is used for medical care personnel to carry out medical operation on the patient. The utility model discloses can make the infection source that the internal patient of cabin produced unable outdiffusion, keep apart the infection source effectively, reduce the risk that medical personnel exposed to improve the operability and the usability in isolation head cabin, medical personnel need not to wear complicated protective equipment, have increased medical personnel's comfort level and still be convenient for observe patient's the condition and then carry out corresponding operation.

Description

Isolation head cabin
Technical Field
The utility model relates to a protection technology field particularly, relates to an isolation head cabin.
Background
In the medical field, the spread and infection of viruses can not only harm the masses, but also influence medical staff, and because many operations in clinical work have high-risk contact infection risks, huge pressure is brought to the clinical work of the medical staff. Taking the new coronary pneumonia as an example, the patient mainly takes the pathological changes of the respiratory system as the main part, and many oral airway operations such as sputum aspiration, oxygen inhalation, tracheal intubation, intubation removal and the like are involved in the treatment process, and all the operations may contact the secretion of the patient, or spray transmission and aerosol transmission formed by the patient being choked.
Generally, medical personnel all wear gloves, protective facial mask and safety glasses when the operation, so, medical personnel need wear complicated protective equipment when carrying out treatment or nursing to the patient to, each protective equipment all need strict correct wearing can reach the protective effect, and, the comfort level is poor, and protection cost is high, but the exposure risk does not reduce.
SUMMERY OF THE UTILITY MODEL
In view of this, the utility model provides an isolation head cabin aims at solving among the prior art medical personnel need wear complicated protective equipment when treatment or nursing and easily leads to the comfort level poor and the high problem of exposure risk.
The utility model provides an isolation head cabin, isolation head cabin includes: the device comprises a cabin body with an opening at one end and a hollow interior, a negative pressure mechanism, a sealing device and an operating mechanism; wherein the cabin body is sleeved on the head of the patient and is provided with a perspective window; the sealing device is connected with the open end of the cabin body and is used for sealing the interior of the cabin body; the cabin body is provided with a ventilation port and an air outlet, and the ventilation port is used for supplying oxygen to the cabin body and exhausting gas exhaled by the patient; the negative pressure mechanism is connected with the air outlet and is used for enabling the cabin body to be in a negative pressure state; the operating mechanism is arranged in the cabin body and is used for medical care personnel to carry out medical operation on the patient.
Further, in the above-mentioned insulation head tank, the operating mechanism includes: at least one operating component; the cabin body is provided with at least one operation port, and each operation assembly is detachably connected with each operation port in a one-to-one correspondence manner; each operating assembly comprises: the connected oversleeve and the gloves are detachably connected with the corresponding operation opening.
Further, in the above-mentioned isolation head cabin, the negative pressure mechanism includes: a negative pressure device and a filtering device; the negative pressure device is connected with the air outlet through the filtering device, the negative pressure device is used for extracting air in the cabin body so as to enable the cabin body to be in a negative pressure state, and the filtering device is used for filtering the extracted air.
Further, the isolation head cabin further comprises: a pressure regulating mechanism; the pressure regulating mechanism is arranged in the cabin body and used for regulating the pressure in the cabin body.
Furthermore, in the isolating head cabin, the pressure regulating mechanism is an air vent formed in the cabin body.
Furthermore, in the isolating head cabin, an opening is formed in the cabin body, a rubber body matched with the opening is arranged on the cabin body corresponding to the opening, the rubber body is connected with the side wall of the opening, and at least one strip-shaped hole with a preset length is formed in the rubber body so as to transfer articles; and the strip-shaped holes form a pressure regulating mechanism.
Further, the isolation head cabin further comprises: a connecting pipe with adjustable length and arranged in the cabin body and a ventilation device arranged on the face of a patient; the port of the ventilation port arranged in the cabin body is connected with the ventilation device through a connecting pipe, and the port of the ventilation port arranged outside the cabin body is used for being connected with the breathing equipment.
Further, in the above-mentioned insulation head tank, the sealing means includes: an annular air pocket; wherein, the air pocket is connected with the open end of the cabin body, the air pocket is provided with an air transmission hole, and the air transmission hole is used for inputting air into the air pocket so as to enable the air pocket to be in close contact with the neck of a patient and further realize sealing.
Further, the isolation head cabin further comprises: the lighting device is arranged in the cabin body; and/or the disinfection device is arranged in the cabin body and is used for disinfecting the interior of the cabin body; and/or the containing device is arranged in the cabin body and used for placing articles.
Furthermore, in the isolation head cabin, the cabin body is also provided with an auxiliary air inlet which is used for being connected with an oxygen storage tank so as to supply oxygen to the cabin body; and/or the cabin body is also provided with a sputum suction pipe interface which is used for connecting with sputum suction equipment; and/or, the cabin comprises: a first part and a second part which are connected, wherein the first part is arranged at the front part of the head of a patient and has preset hardness, and the first part is transparent to form a perspective window; the second portion is placed on the back of the patient's head and has a preset softness.
In the utility model, the cabin body is sleeved on the head of a patient, the negative pressure mechanism enables the cabin body to be in a negative pressure state, the sealing device seals the cabin body to ensure that the cabin body keeps a certain negative pressure, so that an infection source generated by the patient in the cabin body can not spread outwards, the infection source is effectively isolated, the exposure risk of medical personnel is reduced, the arrangement of the operating mechanism is convenient for the medical personnel to carry out medical operation on the patient, the operability and usability of the isolation head cabin are improved, moreover, the isolation head cabin only needs to be sleeved on the head of the patient, so that the medical personnel does not need to wear complicated protective equipment, the comfort level of the medical personnel is greatly increased, the protective equipment of the medical personnel can be saved, the protection cost is reduced, and the problems that the medical personnel need to wear complicated protective equipment during treatment or nursing in the prior art, the comfort level is poor and the exposure risk is, moreover, the perspective window of the cabin body can facilitate observation of the condition of the patient and further perform corresponding operation, and the arrangement of the ventilation port can effectively guarantee the respiration of the patient in the cabin body.
Drawings
Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:
fig. 1 is a schematic structural view of an isolation head cabin provided in an embodiment of the present invention;
fig. 2 is a schematic top view of an isolation head cabin according to an embodiment of the present invention;
fig. 3 is a schematic side view of an isolation head cabin according to an embodiment of the present invention;
fig. 4 is a schematic structural diagram of an operating mechanism in the isolation head cabin provided by the embodiment of the present invention.
Detailed Description
Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.
Referring to fig. 1-3, a preferred configuration of the isolation head tank is shown. As shown, the isolation head tank includes: the device comprises a cabin body 1, a negative pressure mechanism, a sealing device 6 and an operating mechanism 2. Wherein, the cabin body 1 is hollow inside, and one end of the cabin body 1 is open, namely an open end is formed. The head of patient is located to 1 cover in the cabin body, and 1 in the cabin body is provided with perspective window, and the patient can see to the outside through perspective window, and medical personnel can observe patient's condition through perspective window.
Preferably, the cabin 1 comprises: a first part 17 and a second part 18, the first part 17 and the second part 18 being connected. Preferably, the first portion 17 and the second portion 18 are integrally formed. The first portion 17 is placed on the front of the patient's head, more specifically on the corresponding patient's face. The first portion 17 has a predetermined hardness so that the first portion 17 is rigid, i.e. can maintain a certain shape, thereby ensuring a certain space between the cabin 1 and the face of the patient. The first portion 17 is transparent, thereby forming a see-through window. The second portion 18 is placed on the back of the patient's head and the second portion 18 has a predetermined softness, i.e. the second portion 18 is a soft portion, so that the second portion 18 increases the comfort of the patient when the patient is lying down. In specific implementation, the preset hardness and the preset softness can be determined according to actual conditions, and this embodiment does not limit this.
The sealing device 6 is connected with the open end of the cabin body 1, and the sealing device 6 is used for sealing the inside of the cabin body 1 so as to enable the inside of the cabin body 1 to be in an isolation state with the outside and avoid the spreading of an infection source. Specifically, after the cabin 1 is sleeved on the head of the patient, the sealing device 6 corresponds to the neck of the patient, and the sealing device 6 is in close contact with the neck of the patient to seal the interior of the cabin 1.
Preferably, the sealing means 6 comprise: the air bag is annular. Wherein the air bag is connected with the open end of the cabin body 1. The air bag is hollow and closed, and corresponds to the neck of the patient, and the annular air bag is sleeved on the neck of the patient. The air bag is provided with an air delivery hole 61, and the air delivery hole 61 is used for delivering air into the air bag so that the air bag is tightly contacted with the neck of a patient to realize the sealing of the interior of the cabin body 1. In specific implementation, the air delivery hole 61 is provided with a sealing element to seal the air delivery hole 61, so as to ensure the sealing of the air bag. When gas is input into the air bag through the gas transmission hole 61, the air bag can be inflated, and the inflated air bag can be tightly contacted with the neck of the patient due to the fact that the air bag is sleeved on the neck of the patient, so that the interior of the cabin body 1 can be sealed, and the comfort level of the patient can be improved due to the inflated air bag. In practice, the air bag does not seal the cabin 1 completely, but only has a proper and relative sealing.
The chamber body 1 is provided with a ventilation port 11, and the ventilation port 11 is used for supplying oxygen to the chamber body 1 and exhausting the gas exhaled by the patient. In particular, the ventilation port 11 is used to connect with an external breathing apparatus, by which the patient is assisted in breathing. In particular, the breathing apparatus may comprise: the breathing machine is used for assisting a patient to breathe, and the artificial nose is used for filtering inhaled or exhaled gas.
Preferably, the insulation head cabin may further comprise: a connecting pipe and a ventilation device which are arranged in the cabin body 1. Wherein, the port of the ventilation port 11 arranged in the cabin body 1 is connected with the ventilation device through the connecting pipe, the port of the ventilation port 11 arranged outside the cabin body 1 is used for being connected with the breathing equipment, and the breathing equipment supplies oxygen for the patient through the ventilation port 11, the connecting pipe and the ventilation device and discharges the gas exhaled by the patient. The ventilation device is placed on the face of the patient and can be a tracheal cannula or an oxygen storage mask. The length of the connecting pipe is adjustable, which is convenient for adjusting the length of the connecting pipe according to the space in the cabin body 1 and the position of the face of the patient. Preferably, the connecting pipe is a telescopic threaded pipe.
The cabin body 1 is further provided with an air outlet 12, the negative pressure mechanism is connected with the air outlet 12 and is used for enabling the interior of the cabin body 1 to be in a negative pressure state, and the proper negative pressure generated by the cabin body 1 can ensure that infectious sources such as droplets, aerosol and the like generated by a patient in the cabin body 1 cannot diffuse outwards. In specific implementation, the negative pressure in the cabin 1 may be determined according to actual conditions, and this embodiment does not limit this.
Operating device 2 sets up in cabin body 1, and operating device 2 is used for supplying medical personnel to carry out medical operation to the patient.
It can be seen that, in this embodiment, the cabin 1 is sleeved on the head of the patient, the negative pressure mechanism makes the cabin 1 in a negative pressure state, the sealing device 6 seals the cabin 1 to keep a certain negative pressure in the cabin 1, so that the infection source generated by the patient in the cabin 1 can not diffuse outwards, the infection source is effectively isolated, the exposure risk of the medical care personnel is reduced, the operation mechanism 2 is arranged to facilitate the medical care personnel to perform medical operation on the patient, the operability and usability of the isolation head cabin are improved, and the isolation head cabin only needs to be sleeved on the head of the patient, so that the medical care personnel does not need to wear complicated protection equipment, the comfort level of the medical care personnel is greatly increased, the protection equipment of the medical care personnel can be saved, the protection cost is reduced, and the problems that the medical care personnel need to wear complicated protection equipment during the treatment or nursing in the prior art, the comfort level is poor and the exposure risk is, moreover, the perspective window of the cabin body 1 can facilitate observation of the condition of the patient and further perform corresponding operation, and the arrangement of the ventilation port 11 can effectively ensure the respiration of the patient in the cabin body 1.
Referring to fig. 1 to 4, in the above embodiment, the operating mechanism 2 may include: at least one operating component. Wherein, cabin body 1 has seted up at least one operation mouth 13, each operation subassembly and each operation mouth 13 one-to-one to, every operation subassembly all is connected with the operation mouth 13 detachably that corresponds. Each operating assembly may include: a sleeve 21 and a glove 22, wherein one end of the sleeve 21 is connected with the glove 22, and the other end of the sleeve 21 is detachably connected with the corresponding operation opening 13. The oversleeve 21 and the gloves 22 can be arranged in the cabin 1 and can accommodate the arms of a person, and the medical staff can wear the oversleeve 21 and the gloves 22 to perform contactless clinical operation on the patient. Preferably, the sleeve 21 and the glove 22 are integrally formed.
During the concrete implementation, operation mouth 13 is three, and wherein two operation mouths 13 are main operation mouth, and two main operation mouths set up side by side and have and predetermine the distance, then two main operation mouths can supply medical personnel's both hands to carry out work. The third operation port 13 can be an auxiliary operation port, and the auxiliary operation port 13 is used for other medical staff to perform auxiliary operation.
In practice, the third operation port 13 can also be used for inserting and using a special intubation device (such as a bendable intubation soft lens) under special conditions
It can be seen that, in this embodiment, the operation assembly is connected to the operation opening 13, and the oversleeve 21 and the gloves 22 in the operation assembly enable medical staff to operate the patient in the cabin 1 outside the cabin 1, so that contactless clinical operation between the medical staff and the patient is realized, isolation of the patient is realized, and the cabin 1 does not need to be taken off from the head of the patient, so that the risk of infection of the medical staff is reduced, and the medical staff does not need to wear a complicated protective device.
Referring to fig. 1 to 3, in the above embodiments, the negative pressure mechanism may include: negative pressure device and filter equipment. Wherein, the negative pressure device is connected with the air outlet 12 through a filtering device, the negative pressure device is used for extracting the air in the cabin body 1 to ensure that the cabin body 1 is in a negative pressure state, and the filtering device is used for filtering the extracted air to ensure that the extracted air is clean air. Preferably, the filter device is an artificial nose. The gas that the patient expired in the cabin body 1 was filtered by filter equipment and is extracted out by negative pressure device, has not only guaranteed the negative pressure in the cabin body 1, can also filter the gas of patient's exhalation for clean gas, avoids infecting other people, reduces medical personnel's infection risk.
Referring to fig. 1 to 3, in the above embodiments, the insulation head cabin may further include: a pressure regulating mechanism. Wherein, pressure regulating mechanism sets up in the cabin body 1, and pressure regulating mechanism is used for adjusting the pressure in the cabin body 1 to make the inside of the cabin body 1 can maintain certain negative pressure, not only guarantee the comfort level of patient in the cabin body 1, can also avoid the unable outdiffusion of infectious source that the patient produced.
The pressure regulating mechanism can be an air vent arranged on the cabin body 1, the air vent is always open, and the air vent conveys outside air into the cabin body 1 so as to keep the pressure in the cabin body 1 at a certain negative pressure.
The capsule body 1 is provided with an opening 14, the capsule body 1 is provided with a rubber body 3 corresponding to the opening 14, the shape of the rubber body 3 is matched with that of the opening 14, the side wall of the rubber body 3 is connected with the side wall of the opening 14, and the rubber body 3 is filled in the opening 14 to seal the opening 14. In the present embodiment, the opening 14 is rectangular, the rubber body 3 is rectangular, the size of the rubber body 3 is the same as that of the opening 14, and the thickness of the rubber body 3 is the same as that of the cabin 1, so that the rubber body 3 can be completely placed at the opening 14 and close the opening 14.
At least one bar hole 31 has been seted up to rubber body 3, and every bar hole 31 all has preset length, and this preset length can be confirmed according to actual conditions, and this embodiment does not do any restriction to this. Since the outer wall of the rubber body 3 is connected to the side wall of the opening 14, the medical staff can transfer articles from the strip-shaped hole 31 to the cabin 1, so that the strip-shaped hole 31 forms a passage for transferring articles. The deliverable article can be a laryngoscope, an endotracheal tube, a sputum aspirator, and the like. Further, due to the characteristics of the rubber body 3 itself, when the article is not transferred, the rubber body 3 can be restored to its original state and continue to close the opening 14, and the negative pressure in the cabin is maintained.
In specific implementation, one strip-shaped hole 31 can be provided, so that the rubber body 3 is provided with a linear opening; the number of the strip-shaped holes 31 can be two, the two strip-shaped holes 31 are perpendicularly crossed, and the rubber body 3 is provided with a cross-shaped opening. Of course, the number of the strip-shaped holes 31 may also be determined according to practical situations, and the embodiment does not limit this.
The strip-shaped holes 31 can realize the communication of the air inside and outside the cabin body 1, so the strip-shaped holes 31 can be used as a pressure regulating mechanism, that is, the strip-shaped holes 31 can replace air holes formed in the cabin body 1, and the pressure in the cabin body 1 can be regulated through the strip-shaped holes 31.
When the medical staff operates the patient, articles can be transferred into the cabin body 1 through the strip-shaped holes 31 of the rubber bodies 3 without taking off the isolation head cabin, so that the patient and the medical staff are effectively isolated.
Referring to fig. 1 to 3, in the above embodiments, the insulation head cabin may further include: lighting means 4, and/or disinfection means 5, and/or housing means. The lighting device 4, the disinfecting device 5 and the receiving device may be provided as only one, two of them may be provided, or three of them may be provided at the same time, which is not limited in this embodiment.
The lighting device 4 is arranged in the cabin body 1 to illuminate the cabin body 1, and the lighting device 4 can be a light band so as to observe a patient and ensure that medical staff accurately operate the patient.
The disinfection device 5 is arranged in the cabin 1, the disinfection device 5 is used for disinfecting the interior of the cabin 1, and specifically, the disinfection device 5 is used for disinfecting after the cabin 1 is removed from the head of the patient. Preferably, the sterilizing device 5 is an ultraviolet irradiation sterilizing system.
In particular, the lighting means 4 and the sterilizing means 5 can be arranged on the top of the first portion 17, which top corresponds to the top of the head of the patient.
The storage device is arranged in the cabin 1 and is used for placing articles. Specifically, the containing device can be used for containing disposable consumables such as a sputum suction tube, a laryngoscope and gauze, so that the use frequency of the strip-shaped hole 31 of the rubber body 3 is reduced, and the safety is improved. The storage device can be a buckle, a hook and the like.
Referring to fig. 1 to 3, in the above embodiments, the cabin 1 may further be provided with an auxiliary air inlet 15, the auxiliary air inlet 15 is used for connecting with an oxygen storage tank, and the oxygen storage tank supplies oxygen to the cabin 1. When the patient is in a moving state or is in transit, at which time it is inconvenient to use the breathing apparatus, an oxygen tank may be used, which directly supplies oxygen into the cabin 1 through the auxiliary air inlet 15. In particular embodiments, the auxiliary air intake 15 is located adjacent to the transfer port 11.
The cabin body 1 can also be provided with a sputum suction tube interface 16, and the sputum suction tube interface 16 is used for connecting with sputum suction equipment. In particular, the suction tube interface 16 is disposed adjacent the air outlet 12.
Preferably, the chamber body 1 is provided with an auxiliary air inlet 15, and/or the chamber body 1 is provided with a sputum suction tube interface 16, and/or the chamber body 1 comprises: a first portion 17 and a second portion 18. Specifically, only one of the three embodiments may be provided, two of the three embodiments may be provided at will, and three embodiments may be provided at the same time.
In particular, when the auxiliary air inlet 15 and the sputum suction tube connector 16 are not connected to the apparatus, they are sealed by a piston or other sealing member to ensure the sealing inside the cabin 1.
To sum up, in this embodiment, the negative pressure mechanism makes the cabin 1 in a negative pressure state, the sealing device 6 seals the cabin 1 to keep a certain negative pressure in the cabin 1, so that the infectious source generated by the patient in the cabin 1 cannot diffuse outwards, effectively isolates the infectious source, and reduces the exposure risk of the medical staff, the operation mechanism 2 is arranged to facilitate the medical staff to perform medical operation on the patient, thereby improving the operability and usability of the isolation head cabin, and the isolation head cabin only needs to be sleeved on the head of the patient, so that the medical staff does not need to wear complicated protection equipment, greatly increasing the comfort level of the medical staff, saving the protection equipment of the medical staff, and reducing the protection cost, and the perspective window of the cabin 1 can facilitate observation of the condition of the patient to perform corresponding operation, and the ventilation port 11 can effectively ensure the breathing of the patient in the cabin 1, meanwhile, the isolated head cabin can be used for transferring the patient from external equipment such as necessary oxygen, a power supply and the like.
It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. An insulated header tank, comprising: the device comprises a cabin body (1) with an opening at one end and a hollow interior, a negative pressure mechanism, a sealing device (6) and an operating mechanism (2); wherein the content of the first and second substances,
the head of the patient is sleeved with the cabin body (1), and the cabin body (1) is provided with a perspective window; the sealing device (6) is connected with the open end of the cabin body (1) and is used for sealing the interior of the cabin body (1);
the cabin body (1) is provided with a ventilation port (11) and an air outlet (12), and the ventilation port (11) is used for supplying oxygen to the cabin body (1) and exhausting gas exhaled by a patient;
the negative pressure mechanism is connected with the air outlet (12) and is used for enabling the interior of the cabin body (1) to be in a negative pressure state;
operating device (2) set up in cabin body (1) for supply medical personnel to carry out medical operation to the patient.
2. The isolating head tank according to claim 1, characterized in that the operating mechanism (2) comprises: at least one operating component; wherein the content of the first and second substances,
the cabin body (1) is provided with at least one operation port (13), and each operation assembly is detachably connected with each operation port (13) in a one-to-one correspondence manner;
each of the operating assemblies includes: the gloves are connected with sleeves (21) and gloves (22), and the sleeves (21) are detachably connected with the corresponding operation openings (13).
3. The isolating head tank of claim 1, wherein the negative pressure mechanism comprises: a negative pressure device and a filtering device; wherein the content of the first and second substances,
the negative pressure device is connected with the gas outlet (12) through the filtering device, the negative pressure device is used for extracting gas in the cabin body (1) so as to enable the cabin body (1) to be in a negative pressure state, and the filtering device is used for filtering the extracted gas.
4. The isolating headblock of claim 1, further comprising: a pressure regulating mechanism; wherein the content of the first and second substances,
the pressure regulating mechanism is arranged on the cabin body (1) and is used for regulating the pressure in the cabin body (1).
5. The isolating head cabin according to claim 4, characterized in that the pressure regulating mechanism is a vent hole formed in the cabin body (1).
6. The isolating head cabin according to claim 4, characterized in that the cabin body (1) is provided with an opening (14), a rubber body (3) matched with the opening is arranged at the position of the cabin body (1) corresponding to the opening (14), the rubber body (3) is connected with the side wall of the opening (14), and the rubber body (3) is provided with at least one strip-shaped hole (31) with a preset length for transferring articles; and the strip-shaped hole (31) forms the pressure regulating mechanism.
7. The isolating headblock of claim 1, further comprising: a connecting pipe with adjustable length and arranged in the cabin body (1) and a ventilation device arranged on the face of a patient; wherein the content of the first and second substances,
the port of the ventilation port (11) arranged in the cabin body (1) is connected with the ventilation device through the connecting pipe, and the port of the ventilation port (11) arranged outside the cabin body (1) is used for being connected with breathing equipment.
8. The isolating head tank according to claim 1, characterized in that said sealing means (6) comprise: an annular air pocket; wherein the content of the first and second substances,
the air bag is connected with the opening end of the cabin body (1), the air bag is provided with an air transmission hole (61), and the air transmission hole (61) is used for inputting air into the air bag so that the air bag is in close contact with the neck of a patient to realize sealing.
9. The isolating headblock of claim 1, further comprising:
a lighting device (4) arranged in the cabin (1); and/or the presence of a gas in the gas,
the disinfection device (5) is arranged in the cabin body (1) and is used for disinfecting the interior of the cabin body (1); and/or the presence of a gas in the gas,
the storage device is arranged in the cabin body (1) and used for placing articles.
10. The isolating header tank of claim 1,
the cabin body (1) is also provided with an auxiliary air inlet (15), and the auxiliary air inlet (15) is connected with an oxygen storage tank to supply oxygen to the cabin body (1); and/or the presence of a gas in the gas,
the cabin body (1) is also provided with a sputum suction pipe interface (16), and the sputum suction pipe interface (16) is used for being connected with sputum suction equipment; and/or the presence of a gas in the gas,
the cabin (1) comprises: a first portion (17) and a second portion (18) connected, said first portion (17) being placed in front of the head of the patient and having a predetermined stiffness, said first portion (17) being transparent so as to form said see-through window; the second portion (18) is placed on the back of the patient's head and has a preset softness.
CN202020262075.8U 2020-03-05 2020-03-05 Isolation head cabin Active CN212090072U (en)

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Application Number Priority Date Filing Date Title
CN202020262075.8U CN212090072U (en) 2020-03-05 2020-03-05 Isolation head cabin

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Application Number Priority Date Filing Date Title
CN202020262075.8U CN212090072U (en) 2020-03-05 2020-03-05 Isolation head cabin

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Publication Number Publication Date
CN212090072U true CN212090072U (en) 2020-12-08

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Application Number Title Priority Date Filing Date
CN202020262075.8U Active CN212090072U (en) 2020-03-05 2020-03-05 Isolation head cabin

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113876520A (en) * 2021-12-08 2022-01-04 北京清华长庚医院 Isolation transfer cabin for interventional operation
CN114099191A (en) * 2021-09-08 2022-03-01 首都医科大学宣武医院 Isolation device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114099191A (en) * 2021-09-08 2022-03-01 首都医科大学宣武医院 Isolation device
CN114099191B (en) * 2021-09-08 2023-02-07 首都医科大学宣武医院 Isolation device
CN113876520A (en) * 2021-12-08 2022-01-04 北京清华长庚医院 Isolation transfer cabin for interventional operation

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